VERSION 1.0 CLASS
BEGIN
  MultiUse = -1  'True
  Persistable = 0  'NotPersistable
  DataBindingBehavior = 0  'vbNone
  DataSourceBehavior  = 0  'vbNone
  MTSTransactionMode  = 0  'NotAnMTSObject
END
Attribute VB_Name = "LoadPNG"
Attribute VB_GlobalNameSpace = False
Attribute VB_Creatable = True
Attribute VB_PredeclaredId = False
Attribute VB_Exposed = False
'png load
Option Explicit
Private Declare Sub CopyMemory Lib "kernel32" Alias "RtlMoveMemory" (Destination As Any, Source As Any, ByVal Length As Long)
Private Declare Function SetDIBitsToDevice Lib "gdi32" (ByVal hdc As Long, ByVal X As Long, ByVal Y As Long, ByVal dx As Long, ByVal dy As Long, ByVal SrcX As Long, ByVal SrcY As Long, ByVal Scan As Long, ByVal NumScans As Long, Bits As Any, BitsInfo As Any, ByVal wUsage As Long) As Long
Private Declare Function BitBlt Lib "gdi32" (ByVal hDestDC As Long, ByVal X As Long, ByVal Y As Long, ByVal nWidth As Long, ByVal nHeight As Long, ByVal hSrcDC As Long, ByVal XSrc As Long, ByVal YSrc As Long, ByVal dwRop As Long) As Long
Private Declare Function GetDIBits Lib "gdi32" (ByVal aHDC As Long, ByVal hBitmap As Long, ByVal nStartScan As Long, ByVal nNumScans As Long, lpBits As Any, lpBI As Any, ByVal wUsage As Long) As Long
Private Declare Function CreateCompatibleDC Lib "gdi32" (ByVal hdc As Long) As Long
Private Declare Function CreateCompatibleBitmap Lib "gdi32" (ByVal hdc As Long, ByVal nWidth As Long, ByVal nHeight As Long) As Long
Private Declare Function SelectObject Lib "gdi32" (ByVal hdc As Long, ByVal hObject As Long) As Long
Private Declare Function DeleteObject Lib "gdi32" (ByVal hObject As Long) As Long
Private Declare Function DeleteDC Lib "gdi32" (ByVal hdc As Long) As Long
Private Declare Sub FillMemory Lib "kernel32.dll" Alias "RtlFillMemory" (Destination As Any, ByVal Length As Long, ByVal Fill As Byte)
Private Type BITMAPINFOHEADER
 Size As Long
 Width As Long
 Height As Long
 Planes As Integer
 BitCount As Integer
 Compression As Long
 SizeImage As Long
 XPelsPerMeter As Long
 YPelsPerMeter As Long
 ClrUsed As Long
 ClrImportant As Long
End Type
Private RBD As Long
Private IDATData() As Byte
Dim IdataLen As Long
Private Type IHDR
 Width As Long
 Height As Long
 BitDepth As Byte
 ColorType As Byte
 Compression As Byte
 Filter As Byte
 Interlacing As Byte
End Type
'For Decompression:
Private Type CodesType
 Lenght() As Long
 code() As Long
End Type
Private m_Backcolor As Long
Private Palettenbyte() As Byte
Private OutStream() As Byte
Private OutPos As Long
Private InStream() As Byte
Private Inpos As Long
Private ByteBuff As Long
Private BitNum As Long
Private BitMask(16) As Long
Private Pow2(16) As Long
Private LC As CodesType
Private dc As CodesType
Private LitLen As CodesType
Private Dist As CodesType
Private TempLit As CodesType
Private TempDist As CodesType
Private LenOrder(18) As Long
Private MinLLenght As Long
Private MaxLLenght As Long
Private MinDLenght As Long
Private MaxDLenght As Long
Private IsStaticBuild As Boolean
Private BPPprivat As Long
Private m_width As Long
Private m_height As Long
Private m_bitdepht As Long
Private m_colortype As Long
Private m_compression As Long
Private m_filter As Long
Private m_interlacing As Long
Private m_ErrorNumber As Long
Private m_sAlpha As Boolean
Private m_hAlpha As Boolean
Private trns() As Byte
Private m_hTrans As Boolean
Private m_sTrans As Boolean
Private Colorused As Long
Private bkgd() As Byte
Private m_hbkgd As Boolean
Private m_bkgdColor As Long
Private m_text As String
Private m_Time As String
Private m_ztext As String
Private m_gama As Long
Private m_Bgx As Long
Private m_Bgy As Long
Private m_BGPic As Object
Private m_OwnBkgnd As Boolean
Private m_OBCol As Long
Private m_PicBox As Object
Private m_settoBG As Boolean

Public Function OpenPNG(filename As String, offset As Long) As Long
    Dim Stand As Long
    Dim Ende As Boolean
    Dim Filenumber As Long
    Dim Signature(7) As Byte
    Dim Test As Long
    Dim Lge As Long
    Dim ChunkName As String * 4
    Dim ChunkInhalt() As Byte
    Dim CRC32Inhalt As Long
    Dim Teststring As String
    'Dim crc32test As New clsCRC
    Dim TestCRC32 As Long
    Dim Testint As Integer
    m_hbkgd = False
    m_hTrans = False
    BPPprivat = 0
    ReDim IDATData(0)
    IdataLen = 0
    Filenumber = FreeFile
    Open filename For Binary As Filenumber
        Get Filenumber, offset + 1, Signature
        Test = IsValidSignature(Signature)
        If Test <> -1 Then
            m_ErrorNumber = 1
            Exit Function
        End If
    Do While Ende = False
    Get Filenumber, , Lge
    SwapBytesLong Lge
    Get Filenumber, , ChunkName
    If Lge > 0 Then ReDim ChunkInhalt(Lge - 1)
    Stand = Seek(Filenumber)
    If Stand + Lge > LOF(Filenumber) Then
     m_ErrorNumber = 3
     Exit Function
    End If
    Get Filenumber, , ChunkInhalt
    Get Filenumber, , CRC32Inhalt
    'SwapBytesLong CRC32Inhalt
    'teststring = ChunkName & StrConv(ChunkInhalt, vbUnicode)
    'Testcrc32 = CRC32(teststring) 'reiner VB-Code
    'crc32test.Algorithm = 1
    'TestCRC32 = crc32test.CalculateString(teststring) 'VB und Assembler
    'If CRC32Inhalt <> 0 Then
    'If CRC32Inhalt <> TestCRC32 Then
    'MsgBox "Bad crc32"
    'm_ErrorNumber = 2
    'Exit Function
    'End If
    'End If
    Select Case ChunkName
    Case "IHDR"
    ReadIHDR ChunkInhalt
    Case "PLTE"
    ReDim Palettenbyte(UBound(ChunkInhalt))
    CopyMemory Palettenbyte(0), ChunkInhalt(0), UBound(ChunkInhalt) + 1
    Case "IDAT"
    ReDim Preserve IDATData(IdataLen + UBound(ChunkInhalt))
    CopyMemory IDATData(IdataLen), ChunkInhalt(0), UBound(ChunkInhalt) + 1
    IdataLen = UBound(IDATData) + 1
    Case "IEND"
    Ende = True
    Case "bKGD"
    bkgd = ChunkInhalt
    ReadBkgd
    m_hbkgd = True
    Case "cHRM"
    Case "oFFs"
    Case "pCaL"
    Case "sCAL"
    Case "gAMA"
    CopyMemory ByVal VarPtr(m_gama), ChunkInhalt(0), 4
    SwapBytesLong m_gama
    Case "hIST"
    Case "pHYs"
    Case "sBIT"
    Case "tEXt"
    m_text = m_text & StrConv(ChunkInhalt, vbUnicode) & Chr(0)
    Case "zTXt"
    DecompressText ChunkInhalt
    Case "gIFg"
    Case "gIFx"
    Case "tIME"
    CopyMemory ByVal VarPtr(Testint), ChunkInhalt(0), 2
    Swap Testint
    m_Time = Format(ChunkInhalt(3), "00") & "." & Format(ChunkInhalt(2), "00") & "." & Testint & " " & Format(ChunkInhalt(4), "00") & ":" & Format(ChunkInhalt(5), "00") & ":" & Format(ChunkInhalt(6), "00")
    Case "tRNS"
    m_hTrans = True
    trns = ChunkInhalt
    Case "cTXt"
    Case Else
    'If Asc(Left(ChunkName, 1)) > 65 Then Exit Function 'kritischer Chunk
    End Select
    Loop
    If IdataLen = 0 Then
    m_ErrorNumber = 4
    Exit Function
    End If
    Close Filenumber
    MakePicture
End Function

Private Function IsValidSignature(Signature() As Byte) As Boolean
If Signature(0) <> 137 Then Exit Function
If Signature(1) <> 80 Then Exit Function
If Signature(2) <> 78 Then Exit Function
If Signature(3) <> 71 Then Exit Function
If Signature(4) <> 13 Then Exit Function
If Signature(5) <> 10 Then Exit Function
If Signature(6) <> 26 Then Exit Function
If Signature(7) <> 10 Then Exit Function
 IsValidSignature = True
End Function
Private Sub SwapBytesLong(ByteValue As Long)
Dim ergabe As Long
Dim i As Long
For i = 0 To 3
CopyMemory ByVal VarPtr(ergabe) + i, ByVal VarPtr(ByteValue) + (3 - i), 1
Next i
ByteValue = ergabe
End Sub
Private Sub ReadIHDR(Bytefeld() As Byte)
Dim Header As IHDR
CopyMemory ByVal VarPtr(Header), Bytefeld(0), 13
SwapBytesLong Header.Width
SwapBytesLong Header.Height
m_width = Header.Width
m_height = Header.Height
m_bitdepht = Header.BitDepth
m_colortype = Header.ColorType
m_compression = Header.Compression
m_filter = Header.Filter
m_interlacing = Header.Interlacing
End Sub
Public Property Get Width() As Long
Width = m_width
End Property
Public Property Get Height() As Long
Height = m_height
End Property
Public Property Get Bitdepht() As Long
Bitdepht = m_bitdepht
End Property
Public Property Get ColorType() As Long
ColorType = m_colortype
End Property
Public Property Get Compression() As Long
Compression = m_compression
End Property
Public Property Get Filter() As Long
Filter = m_filter
End Property
Public Property Get Interlacing() As Long
Interlacing = m_interlacing
End Property
Private Sub MakePicture()
Dim DataSize As Long
Dim buffer() As Byte
Dim BitCount As Integer
Dim Bitdepht As Long
Dim Drehen As Integer
m_hAlpha = False
Drehen = 1
Select Case Me.Interlacing
Case 0
 DataSize = DataPerRow * Me.Height
Case 1
 DataSize = (DataPerRow * Me.Height) + Me.Height
End Select
 ReDim buffer(UBound(IDATData) - 2)
 CopyMemory buffer(0), IDATData(2), UBound(IDATData) - 1
Select Case Me.Compression
Case 0
 Decompress buffer, DataSize
End Select
Select Case Me.Interlacing
Case 0
 buffer = DeFilter(buffer)
 Drehen = 1
Case 1
 buffer = DeFilterInterlaced(buffer)
 Drehen = 0
End Select
 BitCount = Me.Bitdepht
Select Case Me.ColorType
Case 0 'Grayscale
Select Case Me.Bitdepht
Case 16
 Conv16To8 buffer
 InitColorTable_Grey 8
 BitCount = 8
 BPPprivat = 8
Case 8, 4, 1
Select Case Interlacing
Case 0
 BitCount = Me.Bitdepht
 InitColorTable_Grey Me.Bitdepht, False
 Align32 BitCount, buffer
Case Else
 BitCount = 8
 InitColorTable_Grey Me.Bitdepht, True
End Select
Case 2
 InitColorTable_Grey 2
If Me.Interlacing = 0 Then
 Pal2To8 Me.Width, Me.Height, buffer, DataPerRow
End If
 BitCount = 8
 BPPprivat = 8
End Select
If m_hTrans And m_sTrans Then
If Me.Bitdepht <> 2 Then
 Align32 BitCount, buffer
End If
 PalToRGBA Me.Width, Me.Height, BitCount, buffer
 BitCount = 32
 BPPprivat = 32
 MakeAlpha m_BGPic, buffer, m_Bgx, m_Bgy
 BitCount = 24
 BPPprivat = 24
End If
Case 2 'RGB
If Me.Bitdepht = 16 Then Conv16To8 buffer
 BitCount = 24
 BPPprivat = 24
 ReverseRGB buffer
 Drehen = 1
 BPPprivat = 8
 Align32 BitCount, buffer
 BPPprivat = 24
If m_hTrans And m_sTrans Then
 MakeRGBTransparent buffer
 MirrorData buffer, Me.Width * 4
 Drehen = 0
 BitCount = 32
 BPPprivat = 32
 MakeAlpha m_BGPic, buffer, m_Bgx, m_Bgy
 BitCount = 24
 BPPprivat = 24
End If
Case 3 'Palette
Select Case Me.Bitdepht
Case 8, 4, 1
If Me.Interlacing = 1 Then
 BitCount = 8
 BPPprivat = 8
 Align32 BitCount, buffer
Else
 BitCount = Me.Bitdepht
If BitCount >= 8 Then
 Align32 BitCount, buffer
End If
End If
Case 2
If Me.Interlacing = 0 Then
 Pal2To8 Me.Width, Me.Height, buffer, DataPerRow
 BitCount = 8
 BPPprivat = 8
Else
 BitCount = 8
 BPPprivat = 8
 Align32 BitCount, buffer
End If
End Select
If m_hTrans And m_sTrans Then
If Me.Bitdepht <> 2 Then
 Align32 BitCount, buffer
End If
 PalToRGBA Me.Width, Me.Height, BitCount, buffer
 BitCount = 32
 BPPprivat = 32
 MakeAlpha m_BGPic, buffer, m_Bgx, m_Bgy
 BitCount = 24
 BPPprivat = 24
End If
Case 4 'Grayscale + Alpha
 m_hAlpha = True
If Me.Bitdepht = 16 Then Conv16To8 buffer
 GrayAToRGBA buffer
 BPPprivat = 32
 BitCount = 32
 MirrorData buffer, LineBytes(Me.Width, BitCount)
 Drehen = 0
If m_sAlpha = True Then
 MakeAlpha m_BGPic, buffer, m_Bgx, m_Bgy
 BPPprivat = 24
 BitCount = 24
End If
Case 6 'RGB + Alpha
 m_hAlpha = True
If Me.Bitdepht = 16 Then Conv16To8 buffer
 BitCount = 32
 BPPprivat = 32
 ReverseRGBA buffer
 MirrorData buffer, LineBytes(Me.Width, BitCount)
 Drehen = 0
If m_sAlpha = True Then
 MakeAlpha m_BGPic, buffer, m_Bgx, m_Bgy
 BPPprivat = 24
 BitCount = 24
End If
End Select
If Not (((Me.ColorType = 3) And (BitCount = 32)) Or _
 (Me.Bitdepht = 2)) Then
Select Case Me.Bitdepht
Case 16
 Bitdepht = 8
 Bitdepht = 16
End Select
End If
Select Case BitCount
Case 1, 2, 4
 Align32 BitCount, buffer
End Select
Select Case BitCount
Case 1
Select Case Me.ColorType
Case 3
 InitColorTable_1Palette Palettenbyte
Case Else
 InitColorTable_1
End Select
 CreateBitmap_1 buffer, Me.Width, Me.Height, True, Colorused
 DrawBitmap Me.Width, Me.Height, m_PicBox, True, m_Bgx, m_Bgy, m_settoBG
Case 4
Select Case Me.ColorType
Case 0
Case Else
 InitColorTable_4 Palettenbyte
End Select
 CreateBitmap_4 buffer, Me.Width, Me.Height, True, Colorused
 DrawBitmap Me.Width, Me.Height, m_PicBox, True, m_Bgx, m_Bgy, m_settoBG
Case 8
Select Case Me.ColorType
Case 0, 4
Case Else
 InitColorTable_8 Palettenbyte
End Select
 Drehen = 1
 CreateBitmap_8 buffer, Me.Width, Me.Height, Drehen, Colorused
 DrawBitmap Me.Width, Me.Height, m_PicBox, True, m_Bgx, m_Bgy, m_settoBG
Case 24
 CreateBitmap_24 buffer, Me.Width, Me.Height, Drehen, 1
 DrawBitmap Me.Width, Me.Height, m_PicBox, True, m_Bgx, m_Bgy, m_settoBG
Case 32
 CreateBitmap_24 buffer, Me.Width, Me.Height, Drehen
 DrawBitmap Me.Width, Me.Height, m_PicBox, True, m_Bgx, m_Bgy, m_settoBG
End Select
End Sub
Private Function Decompress(ByteArray() As Byte, UncompressedSize As Long, Optional ZIP64 As Boolean = False) As Long
Dim IsLastBlock As Boolean
Dim CompType As Long
Dim Char As Long
Dim Nubits As Long
Dim l1 As Long
Dim L2 As Long
Dim X As Long
UncompressedSize = UncompressedSize + 100
InStream = ByteArray
Call Init_Decompress(UncompressedSize)
Do
 IsLastBlock = GetBits(1)
 CompType = GetBits(2)
If CompType = 0 Then
If Inpos + 4 > UBound(InStream) Then
 Decompress = -1
 Exit Do
End If
Do While BitNum >= 8
 Inpos = Inpos - 1
 BitNum = BitNum - 8
Loop
 CopyMemory l1, InStream(Inpos), 2&
 CopyMemory L2, InStream(Inpos + 2), 2&
 Inpos = Inpos + 4
If l1 - (Not (L2) And &HFFFF&) Then Decompress = -2
If Inpos + l1 - 1 > UBound(InStream) Then
 Decompress = -1
 Exit Do
End If
If OutPos + l1 - 1 > UBound(OutStream) Then
 Decompress = -1
 Exit Do
End If
 CopyMemory OutStream(OutPos), InStream(Inpos), l1
 OutPos = OutPos + l1
 Inpos = Inpos + l1
 ByteBuff = 0
 BitNum = 0
ElseIf CompType = 3 Then
 Decompress = -1
 Exit Do
Else
If CompType = 1 Then
If Create_Static_Tree <> 0 Then
 MsgBox "Error in tree creation (Static)"
 Exit Function
End If
Else
If Create_Dynamic_Tree <> 0 Then
 MsgBox "Error in tree creation (Static)"
 Exit Function
End If
End If
 Do
 NeedBits MaxLLenght
 Nubits = MinLLenght
Do While LitLen.Lenght(ByteBuff And BitMask(Nubits)) <> Nubits
 Nubits = Nubits + 1
Loop
 Char = LitLen.code(ByteBuff And BitMask(Nubits))
 DropBits Nubits
If Char < 256 Then
 OutStream(OutPos) = Char
 OutPos = OutPos + 1
ElseIf Char > 256 Then
 Char = Char - 257
 l1 = LC.code(Char) + GetBits(LC.Lenght(Char))
If (l1 = 258) And ZIP64 Then l1 = GetBits(16) + 3
 NeedBits MaxDLenght
 Nubits = MinDLenght
Do While Dist.Lenght(ByteBuff And BitMask(Nubits)) <> Nubits
 Nubits = Nubits + 1
Loop
 Char = Dist.code(ByteBuff And BitMask(Nubits))
 DropBits Nubits
 L2 = dc.code(Char) + GetBits(dc.Lenght(Char))
For X = 1 To l1
If OutPos > UncompressedSize Then
 OutPos = UncompressedSize
 GoTo Stop_Decompression
End If
 OutStream(OutPos) = OutStream(OutPos - L2)
 OutPos = OutPos + 1
Next X
End If
Loop While Char <> 256 'EOB
End If
Loop While Not IsLastBlock
Stop_Decompression:
If OutPos > 0 Then
 ReDim Preserve OutStream(OutPos - 1)
Else
 Erase OutStream
End If
Erase InStream
Erase BitMask
Erase Pow2
Erase LC.code
Erase LC.Lenght
Erase dc.code
Erase dc.Lenght
Erase LitLen.code
Erase LitLen.Lenght
Erase Dist.code
Erase Dist.Lenght
Erase LenOrder
ByteArray = OutStream
End Function
Private Function Create_Static_Tree()
Dim X As Long
Dim Lenght(287) As Long
If IsStaticBuild = False Then
For X = 0 To 143: Lenght(X) = 8: Next
For X = 144 To 255: Lenght(X) = 9: Next
For X = 256 To 279: Lenght(X) = 7: Next
For X = 280 To 287: Lenght(X) = 8: Next
If Create_Codes(TempLit, Lenght, 287, MaxLLenght, MinLLenght) <> 0 Then
 Create_Static_Tree = -1
 Exit Function
End If
For X = 0 To 31: Lenght(X) = 5: Next
 Create_Static_Tree = Create_Codes(TempDist, Lenght, 31, MaxDLenght, MinDLenght)
 IsStaticBuild = True
Else
 MinLLenght = 7
 MaxLLenght = 9
 MinDLenght = 5
 MaxDLenght = 5
End If
LitLen = TempLit
Dist = TempDist
End Function
Private Function Create_Dynamic_Tree() As Long
Dim Lenght() As Long
Dim Bl_Tree As CodesType
Dim MinBL As Long
Dim MaxBL As Long
Dim NumLen As Long
Dim Numdis As Long
Dim NumCod As Long
Dim Char As Long
Dim Nubits As Long
Dim LN As Long
Dim pos As Long
Dim X As Long
NumLen = GetBits(5) + 257
Numdis = GetBits(5) + 1
NumCod = GetBits(4) + 4
ReDim Lenght(18)
For X = 0 To NumCod - 1
 Lenght(LenOrder(X)) = GetBits(3)
Next
For X = NumCod To 18
 Lenght(LenOrder(X)) = 0
Next
If Create_Codes(Bl_Tree, Lenght, 18, MaxBL, MinBL) <> 0 Then
 Create_Dynamic_Tree = -1
 Exit Function
End If
ReDim Lenght(NumLen + Numdis)
pos = 0
Do While pos < NumLen + Numdis
 NeedBits MaxBL
 Nubits = MinBL
Do While Bl_Tree.Lenght(ByteBuff And BitMask(Nubits)) <> Nubits
 Nubits = Nubits + 1
Loop
 Char = Bl_Tree.code(ByteBuff And BitMask(Nubits))
 DropBits Nubits
If Char < 16 Then
 Lenght(pos) = Char
 pos = pos + 1
Else
If Char = 16 Then
If pos = 0 Then
 Create_Dynamic_Tree = -5
 Exit Function
End If
 LN = Lenght(pos - 1)
 Char = 3 + GetBits(2)
ElseIf Char = 17 Then
 Char = 3 + GetBits(3)
 LN = 0
Else
 Char = 11 + GetBits(7)
 LN = 0
End If
If pos + Char > NumLen + Numdis Then
 Create_Dynamic_Tree = -6
 Exit Function
End If
Do While Char > 0
 Char = Char - 1
 Lenght(pos) = LN
 pos = pos + 1
Loop
End If
Loop
If Create_Codes(LitLen, Lenght, NumLen - 1, MaxLLenght, MinLLenght) <> 0 Then
 Create_Dynamic_Tree = -1
 Exit Function
End If
For X = 0 To Numdis
 Lenght(X) = Lenght(X + NumLen)
Next
 Create_Dynamic_Tree = Create_Codes(Dist, Lenght, Numdis - 1, MaxDLenght, MinDLenght)
End Function
Private Function Create_Codes(tree As CodesType, Lenghts() As Long, NumCodes As Long, MaxBits As Long, Minbits As Long) As Long
Dim Bits(16) As Long
Dim next_code(16) As Long
Dim code As Long
Dim LN As Long
Dim X As Long
Minbits = 16
For X = 0 To NumCodes
 Bits(Lenghts(X)) = Bits(Lenghts(X)) + 1
If Lenghts(X) > MaxBits Then MaxBits = Lenghts(X)
If Lenghts(X) < Minbits And Lenghts(X) > 0 Then Minbits = Lenghts(X)
Next
LN = 1
For X = 1 To MaxBits
 LN = LN + LN
 LN = LN - Bits(X)
If LN < 0 Then Create_Codes = LN: Exit Function
Next
Create_Codes = LN
ReDim tree.code(2 ^ MaxBits - 1)
ReDim tree.Lenght(2 ^ MaxBits - 1)
code = 0
Bits(0) = 0
For X = 1 To MaxBits
 code = (code + Bits(X - 1)) * 2
next_code(X) = code
Next
For X = 0 To NumCodes
 LN = Lenghts(X)
If LN <> 0 Then
 code = Bit_Reverse(next_code(LN), LN)
 tree.Lenght(code) = LN
 tree.code(code) = X
next_code(LN) = next_code(LN) + 1
End If
Next
End Function
Private Function Bit_Reverse(ByVal Value As Long, ByVal Numbits As Long)
Do While Numbits > 0
 Bit_Reverse = Bit_Reverse * 2 + (Value And 1)
 Numbits = Numbits - 1
 Value = Value \ 2
Loop
End Function
Private Sub Init_Decompress(UncompressedSize As Long)
Dim temp()
Dim X As Long
ReDim OutStream(UncompressedSize)
Erase LitLen.code
Erase LitLen.Lenght
Erase Dist.code
Erase Dist.Lenght
ReDim LC.code(31)
ReDim LC.Lenght(31)
ReDim dc.code(31)
ReDim dc.Lenght(31)
temp() = Array(16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15)
For X = 0 To UBound(temp): LenOrder(X) = temp(X): Next
 temp() = Array(3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 15, 17, 19, 23, 27, 31, 35, 43, 51, 59, 67, 83, 99, 115, 131, 163, 195, 227, 258)
For X = 0 To UBound(temp): LC.code(X) = temp(X): Next
 temp() = Array(0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0)
For X = 0 To UBound(temp): LC.Lenght(X) = temp(X): Next
 temp() = Array(1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193, 257, 385, 513, 769, 1025, 1537, 2049, 3073, 4097, 6145, 8193, 12289, 16385, 24577, 32769, 49153)
For X = 0 To UBound(temp): dc.code(X) = temp(X): Next
 temp() = Array(0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 14)
For X = 0 To UBound(temp): dc.Lenght(X) = temp(X): Next
For X = 0 To 16
 BitMask(X) = 2 ^ X - 1
 Pow2(X) = 2 ^ X
Next
OutPos = 0
Inpos = 0
ByteBuff = 0
BitNum = 0
End Sub
Private Sub PutByte(Char As Byte)
If OutPos > UBound(OutStream) Then ReDim Preserve OutStream(OutPos + 1000)
OutStream(OutPos) = Char
OutPos = OutPos + 1
End Sub
Private Sub NeedBits(Numbits As Long)
While BitNum < Numbits
If Inpos > UBound(InStream) Then Exit Sub
 ByteBuff = ByteBuff + (InStream(Inpos) * Pow2(BitNum))
 BitNum = BitNum + 8
 Inpos = Inpos + 1
 Wend
End Sub
Private Sub DropBits(Numbits As Long)
ByteBuff = ByteBuff \ Pow2(Numbits)
BitNum = BitNum - Numbits
End Sub
Private Function GetBits(Numbits As Long) As Long
While BitNum < Numbits
 ByteBuff = ByteBuff + (InStream(Inpos) * Pow2(BitNum))
 BitNum = BitNum + 8
 Inpos = Inpos + 1
Wend
GetBits = ByteBuff And BitMask(Numbits)
ByteBuff = ByteBuff \ Pow2(Numbits)
BitNum = BitNum - Numbits
End Function
Private Function DeFilter(Dat() As Byte) As Byte()
Dim NewDat() As Byte, Y As Long, iVal As Long
Dim n As Long, StartByte As Long, DestByte As Long
Dim BPRow As Long, X As Long, RowBytes() As Byte
Dim PrevRowBytes() As Byte
Dim i As Long
iVal = Interval()
BPRow = DataPerRow()
ReDim NewDat(UBound(Dat) - Me.Height)
ReDim PrevRowBytes(DataPerRow() - 2)
ReDim RowBytes(DataPerRow() - 2)
For Y = 0 To Me.Height - 1
 StartByte = BPRow * Y
 DestByte = StartByte - Y
 X = 0
 CopyMemory RowBytes(0), Dat(StartByte + 1), BPRow - 1
Select Case Dat(StartByte)
Case 0 'None
Case 1 'Sub
 ReverseSub RowBytes, iVal
Case 2 'Up
 ReverseUp RowBytes, PrevRowBytes
Case 3 'Average
 ReverseAverage RowBytes, PrevRowBytes, iVal
Case 4 'Paeth
 ReversePaeth RowBytes, PrevRowBytes, iVal
End Select
 CopyMemory NewDat(DestByte), RowBytes(0), BPRow - 1
 PrevRowBytes = RowBytes
Next Y
DeFilter = NewDat
End Function
Private Function Interval() As Long
Interval = BitsPerPixel() \ 8
If Interval = 0 Then Interval = 1
End Function
Private Function BitsPerPixel() As Long
Dim Bpp As Long
If RBD = 0 Then
 Bpp = Me.Bitdepht
Else
 Bpp = RBD
End If
If BPPprivat <> Bpp And BPPprivat <> 0 Then Bpp = BPPprivat
Select Case Me.ColorType
Case 0, 3: BitsPerPixel = Bpp
Case 2: BitsPerPixel = 3 * Bpp
Case 6: BitsPerPixel = 4 * Bpp
Case 4: BitsPerPixel = 2 * Bpp
End Select
End Function
Private Function DataPerRow() As Long
DataPerRow = (Me.Width * BitsPerPixel() + 7) \ 8 + 1
End Function
Private Sub ReverseAverage(CurRow() As Byte, PrevRow() As Byte, Interval As Long)
Dim PrevOff As Long, PrevVal As Byte, BPRow As Long
Dim n As Long, X As Integer
BPRow = UBound(CurRow) + 1
For n = 0 To BPRow - 1
 PrevOff = n - Interval
If PrevOff >= 0 Then
 PrevVal = CurRow(PrevOff)
End If
 X = CurRow(n) + (CInt(PrevRow(n)) + CInt(PrevVal)) \ 2
 CopyMemory CurRow(n), X, 1
Next n
End Sub
Private Sub ReversePaeth(CurRow() As Byte, PrevRow() As Byte, Interval As Long)
Dim BPRow As Long, n As Long, X As Integer
Dim LeftPixOff As Long, LeftPix As Byte
Dim UpperLeftPix As Byte
BPRow = UBound(CurRow) + 1
For n = 0 To BPRow - 1
 LeftPixOff = n - Interval
If LeftPixOff >= 0 Then
 LeftPix = CurRow(LeftPixOff)
 UpperLeftPix = PrevRow(LeftPixOff)
End If
 X = CInt(CurRow(n)) + CInt(PaethPredictor(LeftPix, PrevRow(n), UpperLeftPix))
 CopyMemory CurRow(n), X, 1
Next n
End Sub
Private Sub ReverseUp(CurRow() As Byte, PrevRow() As Byte)
Dim PrevVal As Byte, BPRow As Long
Dim n As Long, X As Integer
 BPRow = UBound(CurRow) + 1
For n = 0 To BPRow - 1
 PrevVal = PrevRow(n)
 X = CInt(CurRow(n)) + CInt(PrevVal)
 CopyMemory CurRow(n), X, 1
Next n
End Sub
Private Sub ReverseSub(CurRow() As Byte, Interval As Long)
Dim PrevOff As Long, PrevVal As Byte, BPRow As Long
Dim n As Long, X As Integer
BPRow = UBound(CurRow) + 1
For n = 0 To BPRow - 1
 PrevOff = n - Interval
If PrevOff >= 0 Then
 PrevVal = CurRow(PrevOff)
End If
 X = CInt(CurRow(n)) + CInt(PrevVal)
 CopyMemory CurRow(n), X, 1
Next n
End Sub
Private Function PaethPredictor(Left As Byte, Above As Byte, UpperLeft As Byte) As Byte
Dim pA As Integer, pB As Integer, pC As Integer, p As Integer
p = CInt(Left) + CInt(Above) - CInt(UpperLeft)
pA = Abs(p - Left)
pB = Abs(p - Above)
pC = Abs(p - UpperLeft)
If (pA <= pB) And (pA <= pC) Then
 PaethPredictor = Left
ElseIf pB <= pC Then
 PaethPredictor = Above
Else
 PaethPredictor = UpperLeft
End If
End Function
Private Sub ReverseRGB(Dat() As Byte)
Dim n As Long, tmp As Byte
On Error Resume Next
For n = 0 To UBound(Dat) Step 3
 tmp = Dat(n)
 Dat(n) = Dat(n + 2)
 Dat(n + 2) = tmp
Next n
End Sub
Private Sub Conv16To8(Dat() As Byte)
Dim n As Long, DestDat() As Byte, DestOff As Long
ReDim DestDat((UBound(Dat) + 1) \ 2 - 1)
For n = 0 To UBound(Dat) Step 2
 DestDat(DestOff) = Dat(n)
 DestOff = DestOff + 1
Next n
Dat = DestDat
End Sub
Private Sub Align32(BitCount As Integer, Dat() As Byte)
Dim RowBytes As Long, SrcRowBytes As Long
Dim Y As Long, Dest() As Byte
Dim SrcOff As Long, DestOff As Long
If BitCount = 32 Then Exit Sub
 RowBytes = LineBytes(Me.Width, BitCount)
 SrcRowBytes = DataPerRow() - 1
Select Case Me.ColorType
Case 4 'Alpha
 SrcRowBytes = SrcRowBytes / 2
End Select
If RowBytes = SrcRowBytes Then
 Exit Sub
Else
 ReDim Dest(RowBytes * Me.Height - 1)
For Y = 0 To Me.Height - 1
 SrcOff = Y * SrcRowBytes
 DestOff = Y * RowBytes
 CopyMemory Dest(DestOff), Dat(SrcOff), SrcRowBytes
Next Y
 Dat = Dest
End If
End Sub
Private Function LineBytes(Width As Long, BitCount As Integer) As Long
LineBytes = ((Width * BitCount + 31) \ 32) * 4
End Function
Private Sub ReverseRGBA(Dat() As Byte)
Dim n As Long, tmp As Byte
For n = 0 To UBound(Dat) Step 4
 tmp = Dat(n)
If n + 2 > UBound(Dat) Then Exit For
 Dat(n) = Dat(n + 2)
 Dat(n + 2) = tmp
Next n
End Sub
Private Sub Pal2To8(Width As Long, Height As Long, Dat() As Byte, RowBytes As Long)
Dim DestDat() As Byte, DestRowBytes As Long, n As Long
Dim Px As Byte, DestOff As Long, X As Long, Y As Long
DestRowBytes = LineBytes(Width, 8)
ReDim DestDat(DestRowBytes * Height - 1)
For Y = 0 To Height - 1
 DestOff = Y * DestRowBytes
For X = 0 To Width - 1
 n = Y * (RowBytes - 1) + X \ 4
If (X Mod 4) <> 3 Then
 Px = (Dat(n) \ 4 ^ (3 - (X Mod 4))) And 3
 Else
 Px = Dat(n) And 3
End If
 DestDat(DestOff) = Px
 DestOff = DestOff + 1
Next X
Next Y
Dat = DestDat
End Sub
Private Sub GrayAToRGBA(Dat() As Byte)
Dim n As Long, DestDat() As Byte, DestOff As Long
 ReDim DestDat((UBound(Dat) + 1) * 2 - 1)
For n = 0 To UBound(Dat) Step 2
 DestDat(DestOff) = Dat(n)
 DestDat(DestOff + 1) = Dat(n)
 DestDat(DestOff + 2) = Dat(n)
 DestDat(DestOff + 3) = Dat(n + 1)
 DestOff = DestOff + 4
Next n
Dat = DestDat
End Sub
Private Function DeFilterInterlaced(buffer() As Byte) As Byte()
Dim Stand As String
Dim X As Long
Dim Y As Long
Dim ZL As Long
Dim Bpp As Long
Dim Bufferstand As Long
Dim Zeilenbuffer() As Byte
Dim Height8 As Long
Dim Rest8 As Long
Dim MengeZeilen As Long
Dim i As Long
Dim Filterbyte As Byte
Dim PrevRowBytes() As Byte
Dim ZwischenBuffer() As Byte
Dim Nr As Long
Dim ZZ As Long
Dim BytesPerPixel As Long
Dim ZLBytes As Long
Y = Me.Height
X = Me.Width
Bpp = BitsPerPixel
If Bpp >= 8 Then
BytesPerPixel = Bpp / 8
Else
BytesPerPixel = 1
End If
ReDim ZwischenBuffer((X * Y * BytesPerPixel) - 1)
Rest8 = Y Mod 8
Height8 = (Y - Rest8) / 8
Stand = "1" 'Durchlauf 1
ZL = BerechneZeilenLge(X, Bpp, Stand)
If ZL > 0 Then
ReDim PrevRowBytes(ZL - 1)
MengeZeilen = Height8
If Rest8 > 0 Then
MengeZeilen = MengeZeilen + 1
End If
For i = 1 To MengeZeilen
ReDim Zeilenbuffer(ZL - 1)
CopyMemory Zeilenbuffer(0), buffer(Bufferstand + 1), ZL
Filterbyte = buffer(Bufferstand)
FilterInter Zeilenbuffer, Filterbyte, PrevRowBytes
Bufferstand = Bufferstand + ZL + 1
If Bpp < 8 Then
ZLBytes = BerechneZeilenLge(X, 8, Stand)
Else
ZLBytes = 0
End If
PutBuffer ZwischenBuffer, Zeilenbuffer, 1, 1, i, ZLBytes
Next i
End If
Stand = "5" 'Durchlauf 2
ZL = BerechneZeilenLge(X, Bpp, Stand)
If ZL > 0 Then
ReDim PrevRowBytes(ZL - 1)
MengeZeilen = Height8
If Rest8 > 0 Then
MengeZeilen = MengeZeilen + 1
End If
For i = 1 To MengeZeilen
ReDim Zeilenbuffer(ZL - 1)
CopyMemory Zeilenbuffer(0), buffer(Bufferstand + 1), ZL
Filterbyte = buffer(Bufferstand)
FilterInter Zeilenbuffer, Filterbyte, PrevRowBytes
Bufferstand = Bufferstand + ZL + 1
If Bpp < 8 Then
ZLBytes = BerechneZeilenLge(X, 8, Stand)
Else
ZLBytes = 0
End If
PutBuffer ZwischenBuffer, Zeilenbuffer, 2, 1, i, ZLBytes
Next i
End If
Stand = "15" 'Durchlauf 3
ZL = BerechneZeilenLge(X, Bpp, Stand)
If ZL > 0 Then
ReDim PrevRowBytes(ZL - 1)
MengeZeilen = Height8
If Rest8 > 4 Then
MengeZeilen = MengeZeilen + 1
End If
For i = 1 To MengeZeilen
ReDim Zeilenbuffer(ZL - 1)
CopyMemory Zeilenbuffer(0), buffer(Bufferstand + 1), ZL
Filterbyte = buffer(Bufferstand)
FilterInter Zeilenbuffer, Filterbyte, PrevRowBytes
Bufferstand = Bufferstand + ZL + 1
If Bpp < 8 Then
ZLBytes = BerechneZeilenLge(X, 8, Stand)
Else
ZLBytes = 0
End If
PutBuffer ZwischenBuffer, Zeilenbuffer, 3, 5, i, ZLBytes
Next i
End If
Stand = "37" 'Durchlauf 4 - Zeile 1 - 2
ZZ = 1
ZL = BerechneZeilenLge(X, Bpp, Stand)
If ZL > 0 Then
ReDim PrevRowBytes(ZL - 1)
MengeZeilen = Height8 * 2
If Rest8 > 0 Then
MengeZeilen = MengeZeilen + 1
End If
If Rest8 > 4 Then
MengeZeilen = MengeZeilen + 1
End If
Nr = 1
For i = 1 To MengeZeilen
ReDim Zeilenbuffer(ZL - 1)
CopyMemory Zeilenbuffer(0), buffer(Bufferstand + 1), ZL
Filterbyte = buffer(Bufferstand)
FilterInter Zeilenbuffer, Filterbyte, PrevRowBytes
Bufferstand = Bufferstand + ZL + 1
If Bpp < 8 Then
ZLBytes = BerechneZeilenLge(X, 8, Stand)
Else
ZLBytes = 0
End If
PutBuffer ZwischenBuffer, Zeilenbuffer, 4, Nr, ZZ, ZLBytes
If Nr = 1 Then
Nr = 5
Else
Nr = 1
ZZ = ZZ + 1
End If
Next i
End If
Stand = "1357" 'Durchlauf 5 - Zeile 1 - 2
ZL = BerechneZeilenLge(X, Bpp, Stand)
If ZL > 0 Then
ReDim PrevRowBytes(ZL - 1)
MengeZeilen = Height8 * 2
If Rest8 > 2 Then
MengeZeilen = MengeZeilen + 1
End If
If Rest8 > 6 Then
MengeZeilen = MengeZeilen + 1
End If
ZZ = 1
Nr = 3
For i = 1 To MengeZeilen
ReDim Zeilenbuffer(ZL - 1)
CopyMemory Zeilenbuffer(0), buffer(Bufferstand + 1), ZL
Filterbyte = buffer(Bufferstand)
FilterInter Zeilenbuffer, Filterbyte, PrevRowBytes
Bufferstand = Bufferstand + ZL + 1
If Bpp < 8 Then
ZLBytes = BerechneZeilenLge(X, 8, Stand)
Else
ZLBytes = 0
End If
PutBuffer ZwischenBuffer, Zeilenbuffer, 5, Nr, ZZ, ZLBytes
Select Case Nr
Case 3
Nr = 7
Case 7
Nr = 3
ZZ = ZZ + 1
End Select
Next i
End If
Stand = "2468" 'Durchlauf 6 - Zeile 1 - 4
ZL = BerechneZeilenLge(X, Bpp, Stand)
If ZL > 0 Then
ReDim PrevRowBytes(ZL - 1)
ZZ = 1
Nr = 1
MengeZeilen = Height8 * 4
If Rest8 > 0 Then
MengeZeilen = MengeZeilen + 1
End If
If Rest8 > 2 Then
MengeZeilen = MengeZeilen + 1
End If
If Rest8 > 4 Then
MengeZeilen = MengeZeilen + 1
End If
If Rest8 > 6 Then
MengeZeilen = MengeZeilen + 1
End If
For i = 1 To MengeZeilen
ReDim Zeilenbuffer(ZL - 1)
CopyMemory Zeilenbuffer(0), buffer(Bufferstand + 1), ZL
Filterbyte = buffer(Bufferstand)
FilterInter Zeilenbuffer, Filterbyte, PrevRowBytes
Bufferstand = Bufferstand + ZL + 1
If Bpp < 8 Then
ZLBytes = BerechneZeilenLge(X, 8, Stand)
Else
ZLBytes = 0
End If
PutBuffer ZwischenBuffer, Zeilenbuffer, 6, Nr, ZZ, ZLBytes
Select Case Nr
Case 1
Nr = 3
Case 3
Nr = 5
Case 5
Nr = 7
Case 7
Nr = 1
ZZ = ZZ + 1
End Select
Next i
End If
Stand = "12345678" 'Durchlauf 7 - Zeile 1 - 4
ZL = BerechneZeilenLge(X, Bpp, Stand)
If ZL > 0 Then
ReDim PrevRowBytes(ZL - 1)
ZZ = 1
Nr = 2
MengeZeilen = Height8 * 4
If Rest8 > 1 Then
MengeZeilen = MengeZeilen + 1
End If
If Rest8 > 3 Then
MengeZeilen = MengeZeilen + 1
End If
If Rest8 > 5 Then
MengeZeilen = MengeZeilen + 1
End If
If Rest8 > 7 Then
MengeZeilen = MengeZeilen + 1
End If
For i = 1 To MengeZeilen
ReDim Zeilenbuffer(ZL - 1)
CopyMemory Zeilenbuffer(0), buffer(Bufferstand + 1), ZL
Filterbyte = buffer(Bufferstand)
FilterInter Zeilenbuffer, Filterbyte, PrevRowBytes
Bufferstand = Bufferstand + ZL + 1
If Bpp < 8 Then
ZLBytes = BerechneZeilenLge(X, 8, Stand)
Else
ZLBytes = 0
End If
PutBuffer ZwischenBuffer, Zeilenbuffer, 7, Nr, ZZ, ZLBytes
Select Case Nr
Case 2
Nr = 4
Case 4
Nr = 6
Case 6
Nr = 8
Case 8
Nr = 2
ZZ = ZZ + 1
End Select
Next i
End If
DeFilterInterlaced = ZwischenBuffer
End Function
Private Function BerechneZeilenLge(X As Long, Bpp As Long, Stand As String) As Long
Dim Hilfslong As Long
Dim Lgenrest As Long
Dim Lge8 As Long
Dim Testlong As Long
Dim Anzahl8 As Long
Dim AnzahlBits As Long
Dim Bytesrest As Long
Dim NBytes As Long
Dim AnzRB As Long
Dim Rest As Long
Dim MengeBits As Long
Dim i As Long
Dim BiggerAs As Long
Dim Menge As Long
MengeBits = Len(Stand)
Lgenrest = X Mod 8
BiggerAs = 0
Menge = 0
For i = 1 To MengeBits
If CLng(Mid(Stand, i, 1)) <= Lgenrest Then
Menge = Menge + 1
Else
Exit For
End If
Next i
If Bpp < 8 Then
If Lgenrest > 0 Then
 Rest = Bpp * Menge
 Else
 Rest = 0
End If
Else
Rest = Menge * (Bpp / 8)
End If
Anzahl8 = (X - Lgenrest) / 8
AnzahlBits = Anzahl8 * Bpp * MengeBits
Bytesrest = AnzahlBits Mod 8
NBytes = (AnzahlBits - Bytesrest) / 8
Select Case Bpp
Case Is < 8
Rest = Rest + Bytesrest
Testlong = Rest Mod 8
AnzRB = (Rest - Testlong) / 8
If Testlong <> 0 Then AnzRB = AnzRB + 1
BerechneZeilenLge = NBytes + AnzRB
Case Else
BerechneZeilenLge = NBytes + Rest
End Select
End Function
Private Sub FilterInter(RowBytes() As Byte, Filterbyte As Byte, PrevRowBytes() As Byte)
Dim iVal As Long
 iVal = Interval()
Select Case Filterbyte
Case 0 'None
Case 1 'Sub
 ReverseSub RowBytes, iVal
Case 2 'Up
 ReverseUp RowBytes, PrevRowBytes
Case 3 'Average
 ReverseAverage RowBytes, PrevRowBytes, iVal
Case 4 'Paeth
 ReversePaeth RowBytes, PrevRowBytes, iVal
End Select
 PrevRowBytes = RowBytes
End Sub
Private Sub PutBuffer(buffer() As Byte, Zeilenbuffer() As Byte, Zeilentyp As Byte, Zeilennummer As Long, Zeilenzler As Long, ZeilenLge As Long)
Dim Anfang As Long
Dim Achtschritt As Long
Dim Zeile As Long
Dim Zeilenanfang As Long
Dim i As Long
Dim Bufferstand As Long
Dim Zeilenstand As Long
Dim Gre As Long
Dim BytesPerPixel As Long
Dim Bpp As Long
Bpp = BitsPerPixel
If Bpp >= 8 Then
BytesPerPixel = Bpp / 8
Else
BytesPerPixel = 1
BytesToBits Zeilenbuffer, Me.Bitdepht, ZeilenLge
End If
Gre = UBound(Zeilenbuffer) + 1
Zeilenanfang = Me.Width * (Zeilennummer - 1) * BytesPerPixel
Achtschritt = Me.Width * 8 * BytesPerPixel
Anfang = (Achtschritt * (Zeilenzler - 1)) + Zeilenanfang
'Zeilentyp: 1 = 1; 2 = 5; 3 = 1+5; 4 = 3+7; 5 = 1+3+5+7; 6 = 2+4+6+8; 7 = 1-8;
Bufferstand = Anfang
Select Case Zeilentyp
Case 1
Do While Zeilenstand < Gre
CopyMemory buffer(Bufferstand), Zeilenbuffer(Zeilenstand), BytesPerPixel
Bufferstand = Bufferstand + (8 * BytesPerPixel)
Zeilenstand = Zeilenstand + BytesPerPixel
Loop
Case 2
Bufferstand = Bufferstand + (4 * BytesPerPixel)
Do While Zeilenstand < Gre
CopyMemory buffer(Bufferstand), Zeilenbuffer(Zeilenstand), BytesPerPixel
Bufferstand = Bufferstand + (8 * BytesPerPixel)
Zeilenstand = Zeilenstand + BytesPerPixel
Loop
Case 3
Do While Zeilenstand < Gre
CopyMemory buffer(Bufferstand), Zeilenbuffer(Zeilenstand), BytesPerPixel
If Zeilenstand + BytesPerPixel < Gre Then
CopyMemory buffer(Bufferstand + (4 * BytesPerPixel)), Zeilenbuffer(Zeilenstand + BytesPerPixel), BytesPerPixel
End If
Bufferstand = Bufferstand + (8 * BytesPerPixel)
Zeilenstand = Zeilenstand + (2 * BytesPerPixel)
Loop
Case 4
Bufferstand = Bufferstand + (2 * BytesPerPixel)
Do While Zeilenstand < Gre
CopyMemory buffer(Bufferstand), Zeilenbuffer(Zeilenstand), BytesPerPixel
If Zeilenstand + BytesPerPixel < Gre Then
CopyMemory buffer(Bufferstand + (4 * BytesPerPixel)), Zeilenbuffer(Zeilenstand + BytesPerPixel), BytesPerPixel
End If
Bufferstand = Bufferstand + (8 * BytesPerPixel)
Zeilenstand = Zeilenstand + (2 * BytesPerPixel)
Loop
Case 5
Do While Zeilenstand < Gre
CopyMemory buffer(Bufferstand), Zeilenbuffer(Zeilenstand), BytesPerPixel
If Zeilenstand + BytesPerPixel < Gre Then
CopyMemory buffer(Bufferstand + (2 * BytesPerPixel)), Zeilenbuffer(Zeilenstand + BytesPerPixel), BytesPerPixel
End If
If Zeilenstand + (2 * BytesPerPixel) < Gre Then
CopyMemory buffer(Bufferstand + (4 * BytesPerPixel)), Zeilenbuffer(Zeilenstand + (2 * BytesPerPixel)), BytesPerPixel
End If
If Zeilenstand + (3 * BytesPerPixel) < Gre Then
CopyMemory buffer(Bufferstand + (6 * BytesPerPixel)), Zeilenbuffer(Zeilenstand + (3 * BytesPerPixel)), BytesPerPixel
End If
Bufferstand = Bufferstand + (8 * BytesPerPixel)
Zeilenstand = Zeilenstand + (4 * BytesPerPixel)
Loop
Case 6
Bufferstand = Bufferstand + BytesPerPixel
Do While Zeilenstand < Gre
CopyMemory buffer(Bufferstand), Zeilenbuffer(Zeilenstand), BytesPerPixel
If Zeilenstand + BytesPerPixel < Gre Then
CopyMemory buffer(Bufferstand + (2 * BytesPerPixel)), Zeilenbuffer(Zeilenstand + BytesPerPixel), BytesPerPixel
End If
If Zeilenstand + (2 * BytesPerPixel) < Gre Then
CopyMemory buffer(Bufferstand + (4 * BytesPerPixel)), Zeilenbuffer(Zeilenstand + (2 * BytesPerPixel)), BytesPerPixel
End If
If Zeilenstand + (3 * BytesPerPixel) < Gre Then
CopyMemory buffer(Bufferstand + (6 * BytesPerPixel)), Zeilenbuffer(Zeilenstand + (3 * BytesPerPixel)), BytesPerPixel
End If
Bufferstand = Bufferstand + (8 * BytesPerPixel)
Zeilenstand = Zeilenstand + (4 * BytesPerPixel)
Loop
Case 7
CopyMemory buffer(Bufferstand), Zeilenbuffer(0), UBound(Zeilenbuffer) + 1
End Select
End Sub
Private Sub BytesToBits(Bytefeld() As Byte, Bitanzahl As Byte, Gre As Long)
Dim i As Long
Dim ergabe() As Byte
Dim Wandeln() As Byte
Dim EinGr As Long
Dim z As Long
EinGr = UBound(Bytefeld) + 1
Select Case Bitanzahl
Case 1
ReDim ergabe((EinGr * 8) - 1)
For i = 0 To EinGr - 1
ByteToEinBit Bytefeld(i), Wandeln
CopyMemory ergabe(z), Wandeln(0), 8
z = z + 8
Next i
Case 2
ReDim ergabe((EinGr * 4) - 1)
For i = 0 To EinGr - 1
ByteToZweiBit Bytefeld(i), Wandeln
CopyMemory ergabe(z), Wandeln(0), 4
z = z + 4
Next i
Case 4
ReDim ergabe((EinGr * 2) - 1)
For i = 0 To EinGr - 1
ByteToVierBit Bytefeld(i), Wandeln
CopyMemory ergabe(z), Wandeln(0), 2
z = z + 2
Next i
End Select
ReDim Preserve ergabe(Gre - 1)
Bytefeld = ergabe
End Sub
Private Sub ByteToZweiBit(Number As Byte, Wandeln() As Byte)
Dim a As Byte
ReDim Wandeln(3)
Wandeln(3) = Number And 3
a = Number And 12
Wandeln(2) = a / 4
a = Number And 48
Wandeln(1) = a / 16
a = Number And 192
Wandeln(0) = a / 64
End Sub
Private Sub ByteToEinBit(Number As Byte, Wandeln() As Byte)
Dim a As Byte
ReDim Wandeln(7)
Wandeln(7) = Number And 1
a = Number And 2
Wandeln(6) = a / 2
a = Number And 4
Wandeln(5) = a / 4
a = Number And 8
Wandeln(4) = a / 8
a = Number And 16
Wandeln(3) = a / 16
a = Number And 32
Wandeln(2) = a / 32
a = Number And 64
Wandeln(1) = a / 64
a = Number And 128
Wandeln(0) = a / 128
End Sub
Private Sub ByteToVierBit(Number As Byte, Wandeln() As Byte)
Dim a As Byte
ReDim Wandeln(1)
Wandeln(1) = Number And 15
a = Number And 240
Wandeln(0) = a / 16
End Sub
Public Property Get ErrorNumber() As Long
ErrorNumber = m_ErrorNumber
End Property
Private Sub MakeAlpha(PicObject As Object, buffer() As Byte, Optional X As Long = 0, Optional Y As Long = 0)
Dim Myx As Long, Myy As Long, DatOff As Long
Dim R As Long, G As Long, b As Long, a As Long
Dim sR As Long, sG As Long, sB As Long
Dim dR As Long, dG As Long, dB As Long
Dim DestData() As Byte, bytesperrow As Long
Dim DestOff As Long, DestHdr As BITMAPINFOHEADER
Dim MemDC As Long, hBmp As Long, hOldBmp As Long
Dim SrcData() As Byte
Dim hdc As Long
On Error Resume Next
hdc = PicObject.hdc
If Err.Number = 91 Then
 ReDim SrcData(UBound(buffer))
  bytesperrow = LineBytes(Me.Width, 24)
If m_OBCol = False Then
  FillColorArray SrcData, Me.BkgdColor, bytesperrow
Else
  FillColorArray SrcData, m_OBCol, bytesperrow
End If
 ReDim DestData(bytesperrow * Me.Height - 1)
Err.Clear
Else
If PicObject.Width < Me.Width * Screen.TwipsPerPixelX Then
 PicObject.Width = Screen.TwipsPerPixelX * Me.Width + 100
End If
If PicObject.Height < Me.Height * Screen.TwipsPerPixelY Then
 PicObject.Height = Screen.TwipsPerPixelY * Me.Height + 100
End If
 hdc = PicObject.hdc
 bytesperrow = LineBytes(Me.Width, 24)
 ReDim DestData(bytesperrow * Me.Height - 1)
 ReDim SrcData(UBound(buffer))
 DestHdr.BitCount = 24
 DestHdr.Height = Me.Height
 DestHdr.Width = Me.Width
 DestHdr.Planes = 1
 DestHdr.Size = 40
 MemDC = CreateCompatibleDC(hdc)
 hBmp = CreateCompatibleBitmap(hdc, Me.Width, Me.Height)
 hOldBmp = SelectObject(MemDC, hBmp)
 BitBlt MemDC, 0, 0, Me.Width, Me.Height, hdc, X, Y, vbSrcCopy
 GetDIBits MemDC, hBmp, 0, Me.Height, SrcData(0), DestHdr, 0
SelectObject hOldBmp, MemDC
 DeleteObject hBmp
 DeleteDC MemDC
End If
 For Myy = 0 To Me.Height - 1
 For Myx = 0 To Me.Width - 1
 DestOff = Myy * bytesperrow + Myx * 3
 sR = SrcData(DestOff + 2)
 sG = SrcData(DestOff + 1)
 sB = SrcData(DestOff)
 b = buffer(DatOff)
 G = buffer(DatOff + 1)
 R = buffer(DatOff + 2)
 a = buffer(DatOff + 3)
If a = 255 Then
 DestData(DestOff + 2) = R
 DestData(DestOff + 1) = G
 DestData(DestOff) = b
 ElseIf a = 0 Then
 DestData(DestOff + 2) = sR
 DestData(DestOff + 1) = sG
 DestData(DestOff) = sB
 Else
 dR = R * a + (255 - a) * sR + 255
 dG = G * a + (255 - a) * sG + 255
 dB = b * a + (255 - a) * sB + 255
 CopyMemory DestData(DestOff + 2), ByVal VarPtr(dR) + 1, 1
 CopyMemory DestData(DestOff + 1), ByVal VarPtr(dG) + 1, 1
 CopyMemory DestData(DestOff), ByVal VarPtr(dB) + 1, 1
End If
 DatOff = DatOff + 4
Next Myx
Next Myy
 buffer = DestData
End Sub
Private Sub MirrorData(Dat() As Byte, RowBytes As Long)
Dim NewDat() As Byte, Y As Long, Height As Long
Dim StartLine As Long, DestLine As Long
 ReDim NewDat(UBound(Dat))
 Height = (UBound(Dat) + 1) \ RowBytes
 For Y = 0 To Height - 1
 StartLine = Y * RowBytes
 DestLine = (Height - Y - 1) * RowBytes
 CopyMemory NewDat(DestLine), Dat(StartLine), RowBytes
Next Y
 Dat = NewDat
End Sub
Public Property Get HaveAlpha() As Boolean
HaveAlpha = m_hAlpha
End Property
Public Property Get HaveTransparence() As Boolean
HaveTransparence = m_hTrans
End Property
Public Property Let SetTrans(ByVal vNewValue As Boolean)
m_sTrans = vNewValue
End Property
Public Property Let SetAlpha(ByVal vNewValue As Boolean)
m_sAlpha = vNewValue
End Property
Private Sub PalToRGBA(Width As Long, Height As Long, BitDepth As Integer, Dat() As Byte)
 Dim DestDat() As Byte, n As Long, PalEntry As Byte
 Dim DestOff As Long, TrnsBnd As Long
 Dim Testint As Integer
 Dim X As Long, Y As Long, WidthBytes As Long
 Dim Pal() As RGBTriple
 Dim IdataLen As Long
 Dim i As Long
 Dim Anzahl As Long
 ReDim DestDat(4 * Width * Height - 1)
 TrnsBnd = UBound(trns)
 WidthBytes = LineBytes(Width, BitDepth)
If Me.ColorType = 0 Then
 Palettenbyte = InitColorTable_Grey(Bitdepht)
 Anzahl = UBound(Palettenbyte) / 3
 Testint = (trns(1))
 ReDim trns(Anzahl - 1)
 For i = 0 To Anzahl - 1
 trns(i) = 255
Next i
 trns(Testint) = 0
 TrnsBnd = UBound(trns)
End If
 ReDim Pal(((UBound(Palettenbyte) + 1) / 3) - 1)
 Colorused = UBound(Pal) + 1
CopyMemory Pal(0), Palettenbyte(0), UBound(Palettenbyte) + 1
Select Case BitDepth
 Case 8
 For Y = 0 To Height - 1
 For X = 0 To Width - 1
 n = Y * WidthBytes + X
 PalEntry = Dat(n)
 With Pal(PalEntry)
 DestDat(DestOff) = .Blue
 DestDat(DestOff + 1) = .Green
 DestDat(DestOff + 2) = .Red
End With
If PalEntry <= TrnsBnd Then
 DestDat(DestOff + 3) = trns(PalEntry)
 Else
 DestDat(DestOff + 3) = 255
End If
 DestOff = DestOff + 4
Next X
Next Y
 Case 4
 For Y = 0 To Height - 1
 For X = 0 To Width - 1
 n = Y * WidthBytes + X \ 2

If (X Mod 2) = 1 Then
 PalEntry = Dat(n) And 15
 Else
 PalEntry = (Dat(n) \ 16) And 15
End If
 With Pal(PalEntry)
 DestDat(DestOff) = .Blue
 DestDat(DestOff + 1) = .Green
 DestDat(DestOff + 2) = .Red
End With
If PalEntry <= TrnsBnd Then
 DestDat(DestOff + 3) = trns(PalEntry)
 Else
 DestDat(DestOff + 3) = 255
End If
 DestOff = DestOff + 4
Next X
Next Y
 Case 1
 For Y = 0 To Height - 1
 For X = 0 To Width - 1
 n = Y * WidthBytes + X \ 8
If (X Mod 8) <> 7 Then
 PalEntry = (Dat(n) \ 2 ^ (7 - X Mod 8)) And 1
 Else
 PalEntry = Dat(n) And 1
End If
 With Pal(PalEntry)
 DestDat(DestOff) = .Blue
 DestDat(DestOff + 1) = .Green
 DestDat(DestOff + 2) = .Red
End With
If PalEntry <= TrnsBnd Then
 DestDat(DestOff + 3) = trns(PalEntry)
 Else
 DestDat(DestOff + 3) = 255
End If
 DestOff = DestOff + 4
Next X
Next Y
End Select
Dat = DestDat
End Sub
Private Sub MakeRGBTransparent(buffer() As Byte)
Dim i As Long
Dim Wo As Long
Dim Testlong As Long
Dim Testint As Integer
Dim Farblong As Long
Dim ergabe() As Byte
Dim TestArray(5) As Byte
Dim Farbarray(5) As Byte
Dim l As Byte
Dim Ft As Long
Ft = Me.Bitdepht
Dim Gre As Long
Select Case Me.Bitdepht
Case 8
trns(0) = trns(1)
trns(2) = trns(3)
trns(4) = trns(5)
CopyMemory TestArray(0), trns(0), 6
Case 16
CopyMemory TestArray(0), trns(0), 6
End Select
Gre = (UBound(buffer) + 1) / 3
ReDim ergabe((Gre * 4) - 1)
Wo = 0
For i = 0 To UBound(buffer) - 1 Step 3
CopyMemory Farbarray(0), buffer(i), 6
CopyMemory ergabe(Wo), buffer(i), 3
If Farbarray(0) <> TestArray(0) Or Farbarray(1) <> TestArray(1) Or Farbarray(2) <> TestArray(2) Or Farbarray(3) <> TestArray(3) Or Farbarray(4) <> TestArray(4) Or Farbarray(5) <> TestArray(5) Then
ergabe(Wo + 3) = 255
End If
Wo = Wo + 4
Next i
buffer = ergabe
End Sub
Public Property Get HasBKGDChunk() As Boolean
HasBKGDChunk = m_hbkgd
End Property
Public Property Get BkgdColor() As Long
BkgdColor = m_bkgdColor
End Property
Private Function ReadBkgd() As Long
Dim GBc As Long
Dim u As Byte
Dim bkLen As Long
Dim ValR As Integer, ValG As Integer, ValB As Integer
Dim R As Long, G As Long, b As Long
Dim BD As Byte
Dim IntVal As Integer, UInt As Long
Dim Testpal() As Byte
Dim Testcol(2) As Byte
bkLen = UBound(bkgd) + 1
BD = Me.Bitdepht
On Error GoTo Error
Select Case Me.ColorType
Case 3
If bkLen = 1 Then
If bkgd(0) > (UBound(Palettenbyte) - 1) Then
 GoTo Error
Else
 GBc = bkgd(0)
 CopyMemory Testcol(0), Palettenbyte(GBc * 3), 3
 m_bkgdColor = RGB(Testcol(0), Testcol(1), Testcol(2))
End If
Else: GoTo Error
End If
Case 0, 4
If bkLen = 2 Then
 CopyMemory IntVal, bkgd(0), Len(IntVal)
 Swap IntVal
 UInt = UnsignedInt(IntVal)
If UInt > (2 ^ BD - 1) Or (UInt < 0) Then
 GoTo Error
Else
 GBc = UInt
 Testpal = InitColorTable_Grey(Me.Bitdepht)
 CopyMemory Testcol(0), Testpal(GBc * 3), 3
 m_bkgdColor = RGB(Testcol(0), Testcol(1), Testcol(2))
End If
Else: GoTo Error
End If
Case 2, 6
If bkLen = 6 Then
 CopyMemory ValR, bkgd(0), 2
 CopyMemory ValG, bkgd(2), 2
 CopyMemory ValB, bkgd(4), 2
 Swap ValR
 Swap ValG
 Swap ValB
 R = UnsignedInt(ValR)
 G = UnsignedInt(ValG)
 b = UnsignedInt(ValB)
 m_bkgdColor = RGB(R / (2 ^ BD - 1) * 255, G / (2 ^ BD - 1) * 255, b / (2 ^ BD - 1) * 255)
Else: GoTo Error
End If
End Select
Exit Function
Error:
m_bkgdColor = 0
End Function
Private Function UnsignedInt(SignedInt As Integer) As Long
UnsignedInt = CLng(SignedInt) And &HFFFF&
End Function
Private Sub Swap(Val As Integer)
Dim Bytef(1) As Byte
Dim u As Byte
CopyMemory Bytef(0), ByVal VarPtr(Val), 2
u = Bytef(0)
Bytef(0) = Bytef(1)
Bytef(1) = u
CopyMemory ByVal VarPtr(Val), Bytef(0), 2
End Sub
Public Property Get Text() As String
Text = m_text
End Property
Public Property Get zText() As String
zText = m_ztext
End Property
Private Sub DecompressText(Inhalt() As Byte)
Dim ztxt() As Byte
Dim Ende As Long
Dim Anfang As Long
Dim Teststring As String
Dim StringText As String
Dim Gre As Long
Dim Beendet As Boolean
Gre = UBound(Inhalt)
Ende = FindNull(Inhalt, Anfang)
ReDim ztxt(Ende)
CopyMemory ztxt(0), Inhalt(0), Ende + 1
Teststring = StrConv(ztxt, vbUnicode)
m_ztext = m_ztext & Teststring & Chr(0)
Anfang = Ende + 5
Ende = FindNull(Inhalt, Anfang)
ReDim ztxt(Ende - Anfang)
CopyMemory ztxt(0), Inhalt(Anfang), Ende - Anfang + 1
Decompress ztxt, UBound(ztxt) * 12
Teststring = StrConv(ztxt, vbUnicode)
m_ztext = m_ztext & Teststring & Chr(0)
End Sub
Private Function FindNull(TestArray() As Byte, Start As Long) As Long
Dim i As Long
Dim Gre As Long
Gre = UBound(TestArray)
FindNull = Gre
For i = Start To Gre
If TestArray(i) = 0 Then
FindNull = i - 1
Exit For
End If
Next i
End Function
Public Property Get ModiTime() As String
ModiTime = m_Time
End Property
Public Property Get gama() As Double
gama = m_gama / 100000
End Property
Public Property Let BackgroundPicture(ByVal vNewValue As Object)
Set m_BGPic = vNewValue
End Property
Private Sub FillColorArray(FArray() As Byte, color As Long, bytesperrow As Long)
Dim DA(3) As Byte
Dim i As Long
Dim u As Byte
Dim Zler As Long
CopyMemory DA(0), ByVal VarPtr(color), 3
If DA(3) = 0 Then
u = DA(0)
DA(0) = DA(2)
DA(2) = u
u = DA(1)
If DA(0) = DA(1) And DA(1) = DA(2) Then
FillMemory FArray(0), UBound(FArray) + 1, DA(0)
Else
Zler = 1
For i = 0 To UBound(FArray) - 2 Step 3
CopyMemory FArray(i), DA(0), 3
If i = ((Zler * bytesperrow) - 1) Or i = ((Zler * bytesperrow) - 2) Then
i = Zler * bytesperrow
i = bytesperrow * Zler
Zler = Zler + 1
End If
Next i
End If
End If
End Sub
Public Sub SetOwnBkgndColor(OwnBkgndOn As Boolean, Optional ByVal BackColor As Long = 0)
m_OwnBkgnd = OwnBkgndOn
m_OBCol = BackColor
End Sub
Public Property Let picbox(ByVal NewPicBox As Object)
Set m_PicBox = NewPicBox
End Property
Public Sub SetToBkgrnd(SetToBG As Boolean, Optional X As Long = 0, Optional Y As Long = 0)
m_Bgx = X
m_Bgy = Y
m_settoBG = SetToBG
End Sub
